Novel form of collective movement by soil bacteria
IC Engelhardt, D Patko, Y Liu, M Mimault… - The ISME …, 2022 - academic.oup.com
Although migrations are essential for soil microorganisms to exploit scarce and
heterogeneously distributed resources, bacterial mobility in soil remains poorly studied due …
heterogeneously distributed resources, bacterial mobility in soil remains poorly studied due …
Smart soils to observe hidden rhizosphere processes
Agriculture must reduce green-house gas emission and pollution, produce safer and
healthier food, closer to home, reducing waste whilst delivering more diverse diets to a …
healthier food, closer to home, reducing waste whilst delivering more diverse diets to a …
Cell-based model shows complex rearrangement of tissue mechanical properties are needed for roots to grow in hard soil
M Mimault, M Ptashnyk, L Dupuy - bioRxiv, 2022 - biorxiv.org
When exposed to increased mechanical resistance from the soil, plant roots display non-
linear growth responses that can not be solely explained by mechanical principles. Here, we …
linear growth responses that can not be solely explained by mechanical principles. Here, we …
[PDF][PDF] Novel form of collective movement by soil bacteria
LX Dupuy - academia.edu
Although migrations are essential for soil microorganisms to exploit scarce and
heterogeneously distributed resources, bacterial mobility in soil remains poorly studied due …
heterogeneously distributed resources, bacterial mobility in soil remains poorly studied due …
Particle-based model shows complex rearrangement of tissue mechanical properties are needed for roots to grow in hard soil
M Mimault, M Ptashnyk, LX Dupuy - PLOS Computational Biology, 2023 - journals.plos.org
When exposed to increased mechanical resistance from the soil, plant roots display non-
linear growth responses that cannot be solely explained by mechanical principles. Here, we …
linear growth responses that cannot be solely explained by mechanical principles. Here, we …